BUILD WITH LIGHT SunGuard IS 20 Technical Information SunGuard IS 20 interior-surface coating delivers superior thermal performance with striking clarity. Offering strength, durability, and cleanability comparable to standard float glass, IS 20 provides beautifully clear, extraordinarily efficient glass for windows and glazings in office buildings, high rises, dormitories and other commercial and institutional settings. Combined with a Guardian low-emissivity coating on the second surface, the addition of IS 20 on the fourth surface provides an enhanced thermal barrier, improving the energy performance of a dual-glazed or triple-glazed low-e window.
IS 20 At-a-glance SunGuard IS 20 gives you enhanced control over energy and aesthetics. Features Low u-value High visible light transmission Low haze Neutral color Smooth and durable surface As mechanically and chemically durable as regular glass Benefits Meet or exceed energy codes and earn LEED credits with the help of this exceptional low-e interior coating Save energy and money on lower heating and air-conditioning costs Beautiful to look at and through Cleanable, smooth surface Coating withstands cleanings, daily wear-and-tear, abrasion and exposure to the environment... comparable to standard float glass Tempered IS 20 allows for versatile treatments in fabrication to meet building requirements and design specifications Options Clear: 3 mm to 10 mm UltraWhite : 3 mm to 10 mm Adapts to Aesthetic and Safety Needs Heat-treated product can be bent, laminated and heat soaked Offering SunGuard IS 20 can be paired with other SunGuard high-performance low-e coatings to improve thermal performance Dimensions Stock sheet sizes: Standard 96" x 130" Maximum 98" x 144" Other sizes may be available upon request lower u-value. lots of light. greater energy savings. U-value Light transmission 1 2 3 4.25.20 68% 66% EXTERIOR INTERIOR SN 68 only SN 68 with IS 20 SN 68 only SN 68 with IS 20 SN 68 SunGuard IS 20 Test Specifications Glass configuration: 6.0 mm on Clear / ½" 90% Argon, 10% Air / 6.0 mm on Clear Coatings: SN 68 on the #2 surface; SunGuard IS 20 on the #4 surface U-value: calculated for dual-glazed, low-e window with Argon fill; winter/night measurement
About Condensation Understanding condensation, and knowing what can be done to control it, can help architects and builders select the right glass solution for energy efficiency and beautiful light to ensure longtime satisfaction from building occupants. Warm air contains humidity. As air cools and reaches the dew point, humidity becomes dew or condensation. As temperatures outside drop, the temperature of the window glass itself will become cooler. When the window reaches a temperature below the dew point, moisture inside the building can cause interior condensation. When glass temperatures are above the dew point, no condensation will form At or below the dew point, windows begin to show condensation At freezing temperatures, condensation will become frost IS 20 Interior-surface Coating and Its Effect on Condensation High-performance windows with interior-surface coatings are exceptionally good at preventing heat transmission through the window, ultimately causing the window temperature to be a few degrees cooler than low-e windows without the interior coating. The heat that would be absorbed by a window without an interior-surface coating is instead reflected back into the room, resulting in a warmer room, and a cooler window. Lower window temperatures mean that condensation will occur on the glass sooner than it would without the coating. In monolithic laminated windows, the addition of IS 20 improves its overall insulating performance and its ability to reduce solar heat gain, but may condense more readily in very cold climates. Regular low-e window loses some heat Low-e window with IS 20 has enhanced performance Comparison of glass temperatures for a low-e window with and without IS 20 shows that a window with IS 20 stays cooler, reaching dew-point temperatures slightly sooner than windows without IS 20. Relative humidity based on 70 F interior temperature, with NFRC outdoor winter conditions of 0 F, 15 mph wind.
Controlling Condensation Monitor and regulate moisture to achieve healthy building humidity levels. Reduce moisture present in the building Regulate humidity at a healthy level Ensure proper air flow Proper vapor barriers and adequate drainage reduce the amount of external moisture creeping in. Appropriate use of appliance vents exhausts moisture outside, instead of in the building. Attention to materials within the building can help control naturally occurring moisture for example, placement of fountains or water features within a building can contribute to higher moisture content. Daily activities, like showering, laundry, cooking, and even breathing, add moisture to the air. Healthy humidity falls in the range of 30% to 50% for personal comfort and reduction of health risks such as mold or bacteria growth. Ventilation and exhaust fans can pass moist air from high-humidity activities outside. Dehumidifiers can help keep excess humidity under control especially in summer months when outdoor humidity is a factor. Spare use of humidifiers can also help keep internal humidity at a healthy level. Still air cools and condenses faster. Improving air flow near the window can help reduce condensation. Place heat and cold air return vents in locations that cause good air flow near windows. Remember to account for thermal stress when planning vent locations. Choose window treatments that enable air to flow near the window unhindered. Open curtains or blinds to improve air flow when condensation is likely. cold air return vent window treatments heat vent vapor barrier exhaust fan humidifier appliance vent Many things can be done throughout a commercial space to reduce moisture, regulate humidity and ensure airflow, ultimately controlling condensation. The diagram above demonstrates several examples.
Performance Testing SunGuard IS 20 is smooth to the touch and has less haze than pyrolytic coatings. Temperature and Humidity IS 20 is more resistant to corrosion than standard float glass. When tested 14 days in a hightemperature, high-humidity chamber to accelerate aging: uncoated float glass shows visible staining which cannot be removed, even when using polishing agents IS 20 shows no damage Mechanical Strength IS 20 has the mechanical and chemical strength of uncoated float glass. SunGuard IS 20 performs as well as uncoated float glass in tests that replicate real-world conditions such as its ability to: withstand machine washing during fabrication (test 1,000 cycles with a wet DQB brush) sustain daily wear and tear, including incidental contact with people, clothing, window treatments, etc. (test 1,000 cycles with a dry DQB brush) In both wet and dry brush tests, IS 20 shows no damage. Cleanability The smooth surface of IS 20 cleans like standard, uncoated float glass and doesn t attract dirt and dust, whereas environmental contaminants tend to build up in the rough surface of pyrolytic coatings and are difficult to remove leading to increased haze over time. IS 20 can be cleaned using common products such as Glass Plus, Windex and Pledge without leaving residue or causing damage. Pyrolytic glass surface, magnified at 20,000 times, using an SEM. SunGuard IS 20 surface, magnified at 20,000 times, using an SEM. Chemical Durability SunGuard IS 20 is chemically stable and can withstand real-world exposure to the same cleansers, fabrication chemicals and building/remodeling conditions as standard float glass. Test Exposure to harsh chemicals Ammonium hydroxide; hydrochloric acid; nitric acid; sulfuric acid; sodium hydroxide; concrete splash Paint and stain resistance Oil; acrylic; latex; urethane; wood stain Removability of tape Painter s tape; duct tape; VHB; polyisobutylene; aged duct tape Sealant compatibility (removal) Synthetic rubber; silicone; polyurethane; latex (Testing included new and UV-aged sealants.) Results No damage No paint residue, no damage No tape residue, no damage No sealant residue, no damage Sealant compatibility (adhesion) Synthetic rubber; silicone; polyurethane; latex (Testing included new and UV-aged sealants.) No adhesive failure at coating; cohesive failure of sealant
SunGuard Advanced Architectural Glass is where art and technology meet. Where innovations help architects create striking statements of light and color as they earn LEED points and control energy costs. Highperformance and aesthetic glass options specifically designed for commercial spaces are supported by exceptional service through the SunGuard Select Fabricator network and Guardian Glazier Connection. To learn more, visit SunGuardGlass.com. Inside Sales 14600 Romine Road Carleton, MI 48117 734-654-4358 Guardian Applications Engineering Science & Technology Center 14511 Romine Road Carleton, MI 48117 888-521-9734 Guardian Architectural Hotlines 1-866-GuardSG (1-866-482-7374) Headquartered in Auburn Hills, Michigan, Guardian Industries is a global leader in float glass, fabricated glass and other building materials for commercial, residential, interior and automotive applications. To learn more, visit Guardian.com. SunGuard is a registered trademark of Guardian Industries Corp. 2015 Guardian Industries Corp.